EP0181374A1 - Isolierung von htlv-iii-proteinen, serologische bestimmung von htlv-iii-antikörpern in sera von patienten mit aids und prä-aids-zuständen und bestimmung von htlv-iii-infektion mittels immunotestverfahren unter verwendung von htlv-iii und seinen proteinen. - Google Patents

Isolierung von htlv-iii-proteinen, serologische bestimmung von htlv-iii-antikörpern in sera von patienten mit aids und prä-aids-zuständen und bestimmung von htlv-iii-infektion mittels immunotestverfahren unter verwendung von htlv-iii und seinen proteinen.

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Publication number
EP0181374A1
EP0181374A1 EP85902364A EP85902364A EP0181374A1 EP 0181374 A1 EP0181374 A1 EP 0181374A1 EP 85902364 A EP85902364 A EP 85902364A EP 85902364 A EP85902364 A EP 85902364A EP 0181374 A1 EP0181374 A1 EP 0181374A1
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European Patent Office
Prior art keywords
htlv
iii
virus
iii virus
terized
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EP85902364A
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English (en)
French (fr)
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EP0181374A4 (de
EP0181374B1 (de
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Robert C Gallo
Mikulas Popovic
Mangalasseril G Sarngadharan
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THE UNITED STATES OF AMERICA REPRESENTED BY THE SE
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Litton Bionetics Inc
US Department of Health and Human Services
US Department of Commerce
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Priority claimed from US06/602,945 external-priority patent/US4520113A/en
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Priority to AT85902364T priority Critical patent/ATE69621T1/de
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    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12QMEASURING OR TESTING PROCESSES INVOLVING ENZYMES, NUCLEIC ACIDS OR MICROORGANISMS; COMPOSITIONS OR TEST PAPERS THEREFOR; PROCESSES OF PREPARING SUCH COMPOSITIONS; CONDITION-RESPONSIVE CONTROL IN MICROBIOLOGICAL OR ENZYMOLOGICAL PROCESSES
    • C12Q1/00Measuring or testing processes involving enzymes, nucleic acids or microorganisms; Compositions therefor; Processes of preparing such compositions
    • C12Q1/70Measuring or testing processes involving enzymes, nucleic acids or microorganisms; Compositions therefor; Processes of preparing such compositions involving virus or bacteriophage
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N33/00Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
    • G01N33/48Biological material, e.g. blood, urine; Haemocytometers
    • G01N33/50Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing
    • G01N33/53Immunoassay; Biospecific binding assay; Materials therefor
    • G01N33/569Immunoassay; Biospecific binding assay; Materials therefor for microorganisms, e.g. protozoa, bacteria, viruses
    • G01N33/56983Viruses
    • G01N33/56988HIV or HTLV

Definitions

  • This invention relates to the detection of antibodies in sera of AIDS and pre-AIDS patients and to biochemical and immunological analysis of HTLV-III virus and its antigens.
  • T-lymphotropic retroviruses causes T-cell proliferation leukemia, T-cell depletion, and immunosuppression in humans infected by the viruses. These retroviruses are khown as the HTLV " family of T4 tropic retroviruses. Subgroup HTLV-I causes T-cell pro ⁇ liferation and leukemia; subgroup HTLV-II induces T-cell proliferation J_n vitro but its role in disease is unclear.
  • a third group of related virus, collectively designated HTLV-III has now been isolated from cultured cells of patients with acquired immune deficiency syn ⁇ drome (AIDS).
  • HTLV-III The biological properties of HTLV-III and i ⁇ uinological analysis of its proteins show that this virus is a member of the HTLV family. Sera of nearly ⁇ oo% of patients with AIDS and of nearly 90% of homosex ⁇ ual men with pre-AIDS, but less than 1% of heterosexual donors, have antibodies reactive against antigens of HTLV-III. The major immune reactivity appears to be directed against p24, a 24,000 molecular weight protein believed to be a core antigen, and against p41, a 41,000 molecular weight protein believed to be an envelope anti ⁇ gen of the virus.
  • AIDS Acquired immune deficiency syndrome
  • Retrovirus infection is known to lead to depressed immune functions in animal systems. Analogiz- ing the human response to these non-human systems, a human retrovirus with a tropism for T-cells was consid ⁇ ered a candidate in the etiology of human AIDS. As men ⁇ tioned above, several members of a family of human T- lymphotropic retroviruses (HTLV) have been isolated. One of these isolates was obtained from a black American with an aggressive form of T-cell lymphoma. This virus, designated HTLV-I, has been etiologically linked to the pathogenesis of adult T-cell leukemia/lymphoma (ATLL) .
  • ATLL adult T-cell leukemia/lymphoma
  • HTLV-I In vitro infection with HTLV-I can alter T-cell function and, in some cases, leads to T-cell death.
  • Another mem ⁇ ber of the HTLV family was isolated from a patient with a T-cell variant of hairy cell leukemia and was designated HTLV-II.
  • Isolation of HTLV-I and HTLV-II have been reported from cultured T-cells of patients with AIDS.
  • Isolation of another retrovirus was reported from a homo ⁇ sexual patient with chronic generalized lymphadenopathy, a syndrome that often precedes AIDS and is therefore referred to as "pre-AIDS.”
  • Proviral DNA of HTLV-I was detected in the cellular DNA of two AIDS patients, and sera of some patients were shown to react with antigens of HTLV-I.
  • the correlation between AIDS and serum anti ⁇ bodies to HTLV-I protein is weak.
  • the present invention shows that the primary cause of the syndrome is a human T-lymphotropic retrovirus variant with limited cross reactivities with the known HTLV-subgroups . These new variants are designated HTLV-III. Disclosed is the use of this virus in an imnunological screening of sera of patients with AIDS, pre-AIDS, and individuals at increased risk for AIDS.
  • HTLV-III was purified from supernatants of cell cultures supporting the continuous production of these cytopathic viruses.
  • These HTLV variants (HTLV-III) lack immortalizing (transforming) properties for normal T- cells and mainly exhibit cytopathic effects on the T-cell helper. The cytopathic effect was overcome by finding a highly susceptible, permissive cell for cytopathic vari- ants of HTLV, thus preserving the capacity for permanent growth after infection with the virus.
  • These cell cul ⁇ tures allow for continuous production of the HTLV-III virus.
  • antigens associated with the infection of human cells by HTLV-III virus are specifi ⁇ cally recognized by antibodies from AIDS patients.
  • HTLV-III isolated from AIDS patients and transmitted by cocultivation with an HT cell line, or its antigens specifically reacts with antibodies from human sera taken from AIDS patients. Detection of the presence of the antibodies or the antigens, as desired, may be achieved by means of this reaction.
  • This assay is very useful in monitoring HTLV-III virus infected cells and generally the cultures that contain this virus to make sure that they really produce the virus, as well as to detect AIDS antibodies in patients' sera.
  • the antigens provide one way to tell if that culture has the virus HTLV-III.
  • a competi- tion radioimmunoassay for the antigens may be performed using the purified antigens of HTLV-III. If the culture material competes in the assay, then it means that the culture has this protein. If it has the protein, then it has the virus because without the virus it cannot have the protein.
  • the detection methods preferred include radioimmunoassay (RIA) , ELISA (an enzyme-linked immuno- sorbent assay) and ELIA (an indirect i ⁇ munofluorescent assay) , as well as Western Blot and Western Dot tech ⁇ niques.
  • the p24 and p41 antigens are particularly pre ⁇ ferred.
  • the p24 antigen is a major core protein of the virus, while the p41 antigen is a major envelope antigen of the virus.
  • Figure 1 shows the identification of HTLV-III antigens by sera of patients in accordance with the pro ⁇ cedure of Example 2.
  • Figure 2 shows protein bands caused by reaction with rabbit hyperimmune sera to HTLV-I, HTLV-II, and HTLV-III.
  • Figure 3 shows the SDS-polyacrylamide gel pro ⁇ file of a sample labeled with 125 I.
  • Figure 4 shows the results of immunoprecipita- tion of 125 I labeled p24 of HTLV-III with sera of patients with AIDS and AIDS-related conditions.
  • Figure 5A shows total competition of the pre ⁇ cipitation of labeled p24 by unlabeled HTLV-III extract.
  • Figure 5B shows two cell clones infected with
  • HTLV-III H4/HTLV-III and H9/HTLV-III which blocked the i ⁇ munopreci itation of HTLV-III p24 and shows that corre ⁇ sponding uninfeeted cells were totally without effect.
  • H9/HTLV-IIlg A cell line related to the present invention, and denoted H9/HTLV-IIlg, has been deposited In the American Type Culture Collection (ATCC, 12301 Parklawn Dr.ive, Rockville, Maryland 20852-1776, USA) under ATCC No. CRL 8543 on April 19, 1984. H9 is a representative and preferred cloned cell line in accordance with the invention. An additional deposit of Molt 3/HTLV-III B was made in the ATCC on August 15, 1984, under ATCC No. CRL 8602. These deposits assure permanence of the deposits and ready accessibility thereto by the public.
  • Lysates of immortalized human T-cell clones such as H9 to which HTLV-III has been transmitted by cocultivation with lymphocytes from AIDS were tested with human sera in a strip radioimmunoassay (RIA) based on the Western Blot tech ⁇ nique.
  • the sera used for the analysis were also tested by ELISA with purified HTLV-III.
  • Sera from patients with AIDS and from some homosexuals and heroin-addicts recog ⁇ nized a number of specific antigens not detected by any other means.
  • the antigens associated with HTLV-III virus produced by HT cells permit the detection of antibodies in the sera of AIDS and pre-AIDS patients.
  • the HTLV-III virus and its antigens also make possible the detection of AIDS and pre-AIDS in other samples of human sera, such as donated blood.
  • HTLV-III HTLV-11IA and HTLV-11IB, particularly susceptible to use in the present assay test kit proce ⁇ dure. Additionally, recombinant fractions of HTLV-III have been prepared. These close derivatives of HTLV-III are included within the scope of the present invention.
  • Prominent immune reactivity or specificity is directed against p41, a 41,000 molecular weight protein which is an envelope antigen of the HTLV-III virus, and against p24, a 24,000 molecular weight protein which is a core antigen of HTLV-III virus.
  • the p24 antigen is called the p30 homolog because in most viruses the molecular weight is about 30,000. In bovine leukemia virus and in the HTLV series the molecular weight of the protein is about 24,000. (In testing proteins to show the relationship by amino acid sequences, the concept of homology is important.
  • the HTLV-III virus may be purified from an impure source of the virus, such as the tissue culture fluid, as follows.
  • the virus is concentrated and puri ⁇ fied with sucrose density-banding, a procedure described in J. of Virology, 38:906-915, June 1981.
  • the viruses have their characteristic density — type C retroviruses, of which HTLV-III is a member, have a density of 1.16 grams per cc in a sucrose solution.
  • the virus fraction may be located by assaying aliquots of each fraction for * HTLV-III specific reverse transcriptase activity.
  • the cells are removed from the culture medium, giving a clar ⁇ ified medium.
  • the medium is centrifuged through a con ⁇ tinuous flow centrifuge and as the medium is loaded, because of the rotary spinning, the particles inside the sample move towards the periphery of the rotor through a sucrose gradient between 20-60% with a density in the range from 1.08 to 1.29 g/ce. These particles move towards the periphery until they reach the point in the sucrose gradient where they find their own density in the surroundings (about 36%-38% sucrose, which has the same density as about 1.16). They cannot go any farther. When all clarified culture medium has gone through the rotor, all the particles will have collected to that point (band).
  • the centrifugation is continued so the virus reaches an equilibrium, the particles go no far ⁇ ther, and the fractions are collected by pumping out the contents of the rotor and collecting fractions of differ- ent densities.
  • the virus is purified. There are no cells in the 1.16 density fraction because the cells are removed initially, and those that may have escaped the initial removal step go farther down in the sucrose gradient since they are denser than the virus particles. There is little contamination from free proteins from the culture medium because they are lighter.
  • the banded material in the density range of 1.15-1.18 g/cc is collected and used in the experiment.
  • non-ionic detergents such as NP40 or Triton X100 or Tween 20, and salt (sodium chloride) are added.
  • the combination is important because the detergent breaks up the envelope, which also contains lipids.
  • Detergents emulsify the lipid and remove it from the structure.
  • the virus parti ⁇ cles are thus accessible to the sodium chloride.
  • the ionic surroundings resulting from the addition of sodium chloride will destroy the interaction of proteins, including the core proteins, with the nucleic acid in the core. A suspension of nucleic acids and free proteins is thus obtained when the virus is treated with the deter ⁇ gent and salt.
  • the ionic strength of the medium is not lowered until the nucleic acids are removed because they could recombine to form a complex. Therefore, the salt is reduced slightly to 0.3M and then passed through a column of an ion exchange resin, diethylaminoethyl cellu ⁇ lose (DEAE cellulose), which is a cationic matrix. It is positively charged so it will bind a negative charge.
  • the virus extract is passed through the column of DEAE cellulose at about 0.3 M salt, which is enough to keep the nucleic acids and proteins apart. When it goes through the column, DEAE-cellulose picks up the nucleic acids, leaving the proteins to exit the column unbound.
  • the protein solution is dialyzed against a buffer. The pH is adjusted to about 6.5 and then chroma ⁇ tography is performed on phosphocellulose. The protein binds to the column and is eluted with a gradient of salt. Different proteins elute at different salt concen ⁇ trations. The p24 elutes between 0.25 and 0.35 molar sodium chloride. Alternately, purification may be achieved by high performance liquid chromatography (HPLC) .
  • HPLC high performance liquid chromatography
  • the process for purifying and recovering p24 viral antigen of HTLV comprises the following steps: (1) Removing the cells from tissue culture medium;
  • a non-ionic detergent such as Triton XI00, and sodium chloride to free the nucleic acids and proteins inside the virus
  • Radioimmunoassay techniques for detecting anti ⁇ bodies include radiolabeled assays of the so-called blot technique, such as the Western Blot technique exemplified by Example 2, below.
  • ELISA enzyme-linked immunosorbent assays
  • the principle of the ELISA test is the reaction of specific antibodies in sera of AIDS patients with antigens of HTLV-III (preferably previously attached to the well surface of a multiwell dish), and a subsequent reaction of the immune complex thus formed (preferably on the dish surface) with a secondary anti ⁇ body reactive with human immunoglobulins.
  • the secondary antibody is tagged with a suitable enzyme which yields a colored soluble product when incubated with an appro- priate substrate.
  • the intensity of the color yielded is a measure of the antibody titer in the patient sera and is measured using an ELISA PLATE READER.
  • the components of -the ELISA test kit are:
  • Negative control serum with no antibody titer to HTLV-III antigens 4) Secondary antibody reactive against human immunoglobul ins, labeled with an enzyme (e.g., peroxi- dase, phosphatase, etc.), and a diluent solution to dilute the antibody, comprising normal serum of the animal species in which the secondary antibody is raised; 5 A substrate mixture (e.g., 0.05% ortho- phenylenediamine and 0.005% H2O2) for peroxidase;
  • an enzyme e.g., peroxi- dase, phosphatase, etc.
  • PBS Phosphate buffered saline
  • the test is carried out by adding the test serum to the antigen-coated wells of the microtiter plates and incubating at room temperature for 2 hours (or longer) .
  • the wells are washed with the wash buffer and incubated with the secondary antibody with the enzyme tag for 1 hour at 37°C.
  • the plates are washed again with wash solution and subsequently with PBS alone.
  • the plates are then treated with the substrate solution and incubated for 10-30 minutes and the reaction stopped by adding the appropriate solution.
  • the color yield in each well is measured by an ELISA PLATE READER.
  • the ELISA system above can be modified to sub- stitute purified p24 of HTLV-III instead of lysate of HTLV-III.
  • Antibodies to HTLV-III may also be detected by an indirect iirmunofluorescence assay. See Example 3 for an example of this technique. This assay is significant because it uses the infected T-cell as a starting mater ⁇ ial. ELISA and Western Blot techniques start with the HTLV-III virus.
  • HTLV-III antibodies to HTLV-III may also be detected in sera of patients with AIDS or pre- AIDS by means of the Western Blot technique (see for instance Example 2).
  • HTLV-III is lysed and electro- phoretically fractionated on a poly-acrylamide slab gel. Protein bands on the gel are then electrophoreti- cally transferred to a nitrocellulose sheet, for instance by transverse electrophores is.
  • the remaining protein binding sites on the nitrocellulose sheet are saturated by incubating the sheet in a solution containing an unre ⁇ lated protein such as bovine albumin, the sheet is separated into narrow strips such that each strip con ⁇ tains a representative profile of the viral antigens as discrete bands, and the individual strips are used as matrix-bound antigens for detecting antibodies reactive with them in serum samples.
  • Strip solid phase radio- i ⁇ munoassays have been performed. Test sera obtained from human patients suspected of having contracted AIDS are added to tubes containing the above described strips. Another antibody of 125 I labeled goat anti-human imnunoglobulin is added to the reaction strips which are then exposed to X-ray film. Strips positive for the presence of AIDS antibodies exhibit wide bands at the 41,000 molecular weight location.
  • the components of the Western Blot test kit include:
  • a secondary antibody to human immunoglo- bulin raised in an appropriate animal host and tagged with a radioactive label
  • a wash solution (0.5% sodium deoxicholate, 0.1M NaCl, 0.5% Triton X-100, 0.ImM phenylmethylsulfony1 fluoride and lOmM sodium phosphate; pH 7.5); and
  • Test tubes with caps e.g., 15cc
  • caps e.g., 15cc
  • each strip is put in a 15cc tube containing 2.5 ml of the diluent and treated with 25 U 1 of the test serum and incubated at 4°C overnight.
  • the solution is drained and the strip is washed in the same tube with three changes of the wash solution, agitating well during the wash.
  • 2.5 ml of the diluent is added to each tube and incubated for 1 hour at room temperature.
  • To the contents of the tube is added 20 ⁇ l of the radioactive secondary antibody solution (approximately 2.5 x 10 6 dpm of 125 I).
  • the liquid is drained, the strips are again washed as above, the individual strips are removed from the tubes, blotted dry on a paper towel and mounted in order on filter- paper, wrapped with thin plastic film such as that of the Saran Wrap brand, and exposed to X-ray film in the dark.
  • the film is developed after 24-48 hours.
  • the antibodies reactive with the viral antigens are detected by dark images on the X-ray film. Positive antibody reactions to a 40-45,000 molecular weight antigen and a 23-25,000 molecular weight antigen are diagnostic of HTLV-III antibodies.
  • Purified p24 may be radioactively labeled with 125 I. Iodine is attached primarily to tyrosine residues of the protein. Radiolabeling procedures and radio- immunoassay (RIA) procedures may be performed in accord ⁇ ance with the methods described by Kalyanaraman et al in J. of Virology, 38(3) :906-915, June 1981. The principle of this test procedure is based on the formation of immune complexes between antigens (generally proteinaceous materials or carbohydrate mole ⁇ cules or other maeromoleeules) and specific antibodies to the relevant antigens (for instance rabbit Ig against HTLV-III).
  • antigens generally proteinaceous materials or carbohydrate mole ⁇ cules or other maeromoleeules
  • specific antibodies to the relevant antigens for instance rabbit Ig against HTLV-III.
  • complexes are further reacted with a second antibody reactive against the first antibody used (for instance goat Ig against rabbit Ig) .
  • a second antibody reactive against the first antibody used for instance goat Ig against rabbit Ig
  • This reaction results in the formation of a ternary complex consisting of the antigen, the primary antibody and the secondary antibody.
  • the primary antibody which is always used in excess of that needed for complexing all the antigen present in the test, also forms binary com ⁇ plexes with the secondary antibody.
  • the mixture of the complexes appears as a visible precipitate and can be sedimented by centrifugation.
  • the antigen used in the test is radioactively labeled, usually with the isotope 12 I. Therefore, the immune precipi ation can be easily monitored by estimating the radioactivity asso- ciated with the precipitate by appropriate counting (e.g., by gamma counting for 125 I-labeled antigen).
  • the components of the competition radioimmuno- assay test kit for HTLV-III p24 include: (1) Labeled p24 (e.g., 125 I); (2) A primary antibody reactive with HTLV-III p24 (either hyperimmune antibody raised in an animal by inoculation with an antigen preparation containing HTLV- III p24, or a patient serum known to contain precipitat ⁇ ing antibody against HTLV-III p24) ; (3) A secondary antibody against the primary antibody (e.g., antibody against rabbit immunoglobulins if the primary antibody used is a rabbit in ⁇ nunoglobulin, or antibody against human inrnunoglobulin if the primary antibody is a human serum reactive against HTLV-III p24) ; (4) The test material to be evaluated for the presence of HTLV-III p24;
  • a primary antibody reactive with HTLV-III p24 either hyperimmune antibody raised in an animal by inoculation with an antigen preparation containing HTLV-
  • the procedure utilizing this test kit involves incubation of multiple dilutions of the non-radioactive test material with the primary antibody in separate test tubes for 1 hour prior to adding a constant amount of the radioactive antigen.
  • the reaction mixture is then incu ⁇ bated initially at 37°C and subsequently at 4°C over ⁇ night.
  • the secondary antibody is then added and the reaction mixture further incubated for 1 hour at 37° followed by 2 hours at 4°C.
  • the incubation mixture was then centrifuged to sediment the precipitate, the super ⁇ natant fluid aspirated out and the radioactivity in the precipitate determined using a gamma counter.
  • the radioactivity in the precipitate, in the reaction mixture not containing a competing antigen, is taken as the maximum precipitation of the labeled anti ⁇ gen.
  • the conclusion is that the unknown test sample contains antigenic activity of HTLV-III p 24.
  • Figure 1 shows the identification of HTLV-III antigens by sera patients in accordance with the proce ⁇ dure of Example 2.
  • Figure 2 is a Western Blot analysis .of anti ⁇ genic cross-reactivities among HTLV-I, HTLV-II, and HTLV- III. Extracts of HTLV-I, HTLV-II, and HTLV-III were fractionated by SDS-polyacrylamide gel electrophoresis and the protein bands electroblotted to a nitrocellulose sheet. After blocking the remaining protein binding sites by incubation with 5% bovine serum albumin, the sheet was cut into segments, each containing lanes of HTLV-I, HTLV-II, and HTLV-III proteins.
  • Segment A was incubated with a rabbit antiserum prepared against HTLV-I extract, segment B with a rabbit serum against HTLV-II extract, segment C with rabbit serum against HTLV-III extract and segment D with normal rabbit serum. After washing, the segments were reacted with i °I-labeled goat IgG against rabbit imtnunoglobulin. The sheets were thor ⁇ oughly washed, blotted dry and exposed to X-ray film. Lanes 1, 2, and 3 in each segment represent HTLV-I, HTLV- II, and HTLV-III. Numbers on the left represent molecu ⁇ lar weights in thousands of standard marker proteins eo- electrophoresed.
  • FIG. 3 shows electrophoretic profiles of 125 I-labeled p24 from HTLV-I, HTLV-II, and HTLV- III.
  • Figure 4 shows the i ⁇ munoprecipitation of 1* ⁇ 0 l- labeled p24 of HTLV-III by sera of AIDS patients. I ⁇ munoprecipitations were performed by the double anti- body method of Kalyanaraman et al, J. Virol., 38:906-915 (1981).
  • Figure 5 shows the homologous competition radioimmunoassay for HTLV-III p24.
  • the assay used a 1:1500 dilution of a hyperimmune rabbit serum prepared against disrupted HTLV-III. In the absence of competing unlabeled antigens, this serum dilution precipitated 20% of the 125 I-labeled p24.
  • the rabbit serum was preincu- bated for 1 hour at 37°C with the unlabeled antigens listed, prior to adding the labeled antigen (approxi ⁇ mately 8000 cpm) . Further details of the assay are the same as described in the Figure 4 legend, except that the second antibody used was goat antirabbit immunoglobulin.
  • Antibodies to HTLV-III in Sera of Patients with AIDS and pre-AIDS Lymphadenopathy Syndrome Wells of 96-well plates were coated overnight with a lysate of density-banded HTLV-III at 0.5 ⁇ g pro ⁇ tein per well in 100 Ul 50 mM sodium bicarbonate buffer, pH 9.6. The wells were washed with water and incubated for 20 min. with 100 ⁇ 1 of 5% bovine serum albumin in phosphate buffered saline (PBS). After washing, 100 ⁇ 1 of 20% normal goat serum in PBS were added to each well, followed by 5 or 10 ⁇ 1 of the test sera (blood taken from a human patient), and allowed to react for 2 hours at room temperature.
  • PBS phosphate buffered saline
  • the wells were washed three times with 0.5% Tween-20 in PBS in order to remove unbound anti ⁇ bodies, and were incubated for 1 hour at room temperature with peroxidase labeled goat anti-human IgG at a dilution of 1:2000 in 1% normal goat serum in PBS.
  • Goat anti- human IgG is a second antibody that binds with the anti- body-antigen complex formed in positive wells.
  • Example 2 Western Blot analysis of the test area was conducted as follows. HTLV-III was lysed and fraction ⁇ ated by electrophoresis on a 12% polyacrylamide slab gel in the presence of sodium dodecylsulfate (SDS) . The protein bands on the gel were electrophoretically trans ⁇ ferred to a nitrocellulose sheet, according to the proce ⁇ dure of Towbin et al., Proc. Natl. Acad. Sci. USA, 76:4350 (1979). Strip solid phase radioimmunoassays were then performed.
  • SDS sodium dodecylsulfate
  • the sheet was incubated at 37° for 2 hours with 5% bovine serum albumin in 10 mM Tris-HCl, pH 7.5 containing 0.9% NaCl and cut into 0.5 cm strips. Each strip was incubated for 2 hours at 37° and 2 hours at room temperature in a screw cap tube containing 2.5 ml of buffer 1 (20 M Tris-HCl, pH 7.5, 1 mM EDTA, 0.2 M NaCl, 0.3% Triton X-100 and 2 mg/ml bovine serum albumin and 0.2 mg/ml of human antibody fractions, Fab).
  • buffer 1 (20 M Tris-HCl, pH 7.5, 1 mM EDTA, 0.2 M NaCl, 0.3% Triton X-100 and 2 mg/ml bovine serum albumin and 0.2 mg/ml of human antibody fractions, Fab).
  • Test sera (25 ⁇ l), taken from human patients with AIDS or exhibiting pre-AIDS symptoms, were then added to indi- vidual tubes containing the strips and incubation con ⁇ tinued for 1 hour at room temperature and overnight in the cold.
  • the strips were washed three times with solu ⁇ tion containing 0.5% sodium deoxycholate, 0.1 M NaCl, 0.5% Triton X-100, 1 mM phenylmethylsulfonyl fluoride and 10 mM sodium phosphate, pH 7.5.
  • the strips were incu ⁇ bated for 1 hour at room temperature with 2.4 ml of buffer 1 and 0.1 ml of normal goat serum.
  • Strip 1 is test sera from an adult with T- cell leukemia; Strip 2 is a normal donor; Strip 3 is a mother of a child with AIDS; Strips 4 and 6-10 are AIDS patients; and Strip 5 is a patient with pre-AIDS.
  • Indicator cell HTLV-III infected negative cells; negative control: uninfected T-cells. Infected cells were washed with phosphate buf ⁇ fered saline (PBS) and resuspended in PBS at 10 6 cells/ml. Approximately 50 ml of cell suspension were spotted on a slide, air dried, and fixed in acetone for 10 minutes at room temperature. Slides were stored at -20°C until ready for use. 20 ml of the test human serum diluted 1:10 in PBS were added to the fixed cells and incubated for 1 hour at 37°.
  • PBS phosphate buf ⁇ fered saline
  • test subjects were normal donors of unknown sexual preference, including laboratory workers ranging in age from 22 to 50.
  • Example 5 To investigate the specificity of the reac ⁇ tions, lysates of the HTLV-III-infected cell clones were analyzed in comparison with lysates of the same cell clones before viral infection. No reactive antigen was found in the uninfected clones, with the exception of an 80,000 molecular weight band in H17 which bound anti ⁇ bodies from all human sera tested, but not from rabbit or goat serum. Antigens newly expressed after viral infec ⁇ tion and recognized by the human serum used for this analysis include p65, p55, p41, p39, p32 and p24. In addition, a large protein of approximately 130,000 molecular weight and one of 48,000 molecular weight were detected. With normal human serum, none of the antigens was detected. These results show that the antigens detected are either virus-coded proteins or cellular antigens specifically induced by viral infection.
  • Example 6 Sucrose density banded HTLV-III from culture supernatants of H9/HTLV-III cells was analyzed by the Western blot technique for determination of its antigenic similarities with HTLV-I and HTLV-II. Lysates of HTLV-I, HTLV-II, and HTLV-III were fractionated by SDS-polyacryl- amide gel electrophoresis and electroblotted to a nitro ⁇ cellulose sheet. The protein bands were then reacted with rabbit hyperimmune sera to HTLV-I, HTLV-II, or HTLV- III. The results are shown in Figure 2.
  • the virus was solubilized with 0.5% Triton X-100, 0.8M NaCl, 20% glycerol and 0.1 mM phenylmethyl- sulfonyl fluoride (PMSF) in 50 mM Tris-HCl, pH 7.9, and the extract was freed of nucleic acids by a batch adsorp ⁇ tion and elution from DEAE-cellulose with 0.3MNaCl.
  • the eluate was dialyzed against 50 mM BES buffer, pH 6.5 containing 1 mM EDTA, 0.1 mM PMSF and chromatographed on a phosphocellulose column equilibrated with the same buffer.
  • HTLV p24 eluted between 0.25 and 0.3 M NaCl.
  • Figure 3 shows the SDS-polyacrylamide gel profile of a sample after labeling with 125 I.
  • the specificity of the purified p24 was analyzed by immunopreci itation with patient sera and by competition radioimmunoassays using hyperimmune rabbit sera.
  • Figure 4 shows the results of immunoprecipita- tion of 125 1-labeled p24 of HTLV-III with sera of patients with AIDS and AIDS related conditions.
  • a wide range of antibody titers was evident from these experi- ments and this finding agreed with results from Western Blot analysis that indicated that immune reactivities with p24 tended to vary widely and that sera of some AIDS patients did not show significant antibody reactivity with p24.
  • a homologous competition radioi ⁇ munoassay was set up using 125 I-labeled HTLV-III p24 and a rabbit anti ⁇ body raised against disrupted HTLV-III.
  • Figure 5A shows a total competition of the precipitation of the labeled p24 by unlabeled HTLV-III extract. Extracts of HTLV-I and HTLV-II showed only a minimal competition at protein concentrations about 100-fold higher than HTLV-III.
  • Faine leukemia virus FeLV
  • R-MuLV Rauscher murine leukemia virus
  • SSV simian sarcoma virus
  • BaEV baboon endogenous virus
  • SMRV squirrel monkey retro ⁇ virus
  • MPMV Mason-Pfizer monkey virus
  • BLV bovine leukemia virus
  • HTLV-III two cell clones infected with HTLV-III (H4/HTLV-III and H9/HTLV-III) blocked the immunopreci itation of HTLV-III p24, but the correspond ⁇ ing uninfected cells were totally without effects (Fig. 5B) .
  • Cells producing HTLV-I and HTLV-II exhibited margi- nal effects in this competition at relatively higher protein concentrations. Therefore, the antigens involved in the above reactions were specific to HTLV-III and cells producing HTLV-III. There were detectable, although low level, cross-reactivities between HTLV-III p24 and p24 of HTLV-I and HTLV-II.
  • HTLV-III is a unique retrovirus with a major core protein, p24, unrelated to most other retroviruses.
  • the p24 of HTLV-III shares a low but detectable level of antigenic cross- reactivity with HTLV-I and HTLV-II and not with other retroviruses.
  • These cross-reactivities with HTLV-I and HTLV-II were seen more clearly in the Western Blot analysis than in conventional competition radioimmuno- assays.
  • Example 7 Therapeutic AIDS-specific test kits were con ⁇ structed for detecting antibodies using several different techniques for detection.
  • One test kit for antibodies detection comprised a compartmented enclosure containing a plurality of wells, plates which were coated prior to use with p24 of HTLV-III and ELISA materials for enzyme detection consisting of normal goat serum and peroxidase- labeled goat antihuman IgG and a color change indicator consisting of orthophenylene diamine and hydrogen perox ⁇ ide in phosphate citrate buffer.
  • a second test kit for detecting antibodies using the Dot Blot technique comprised a container, a cover, and therein containing a nitrocellulose sheet with HTLV p24 attached by "dot-blotting," and additionally surfactants as well as pH modifiers and bovine serum albumin and human Fab.
  • This Dot Blot analysis container also contained a supply of dilute normal goat serum and 125 l labeled goat antihuman immunoglobulin.
  • a different AIDS-specific test kit for detecting HTLV-III using competition radioimmunoassay comprised a compartmented container, 12 I-labeled p24 of HTLV-III, rabbit (or goat) anti-HTLV-p24, solutions of surfactants, pH buffers, bovine serum albumin and goat antiserum to rabbit immunoglobulin (or rabbit antiserum to goat immunoglobulin) .

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EP85902364A 1984-04-23 1985-04-23 Isolierung von htlv-iii-proteinen, serologische bestimmung von htlv-iii-antikörpern in sera von patienten mit aids und prä-aids-zuständen und bestimmung von htlv-iii-infektion mittels immunotestverfahren unter verwendung von htlv-iii und seinen proteinen Expired - Lifetime EP0181374B1 (de)

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